ameba-sdk-gcc-make/component/common/api/wifi/wifi_simple_config.c

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#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include "FreeRTOS.h"
#include "task.h"
#include "main.h"
#include "udp.h"
#include <sockets.h>
#include <lwip_netconf.h>
#include <osdep_service.h>
#include "platform_stdlib.h"
#include "wifi_simple_config_parser.h"
#define STACKSIZE 512
#if CONFIG_WLAN
#if (CONFIG_INCLUDE_SIMPLE_CONFIG)
#include "wifi/wifi_conf.h"
int is_promisc_callback_unlock = 0;
static int is_fixed_channel;
int fixed_channel_num;
unsigned char g_ssid[32];
int g_ssid_len;
extern int promisc_get_fixed_channel( void *, u8 *, int* );
struct pattern_test_ops;
struct rtk_test_sc;
typedef int (*sc_test_check_pattern_call_back)(struct pattern_test_ops *pp, struct rtk_test_sc *pSc);
typedef int (*sc_test_get_cipher_info_call_back)(struct pattern_test_ops *pp, struct rtk_test_sc *pSc);
typedef int (*sc_test_generate_key_call_back)(struct pattern_test_ops *pp, struct rtk_test_sc *pSc);
typedef int (*sc_test_decode_profile_call_back)(struct pattern_test_ops *pp, struct rtk_test_sc *pSc);
typedef int (*sc_test_get_tlv_info_call_back)(struct pattern_test_ops *pp, struct rtk_test_sc *pSc);
struct pattern_test_ops {
unsigned int index;
unsigned flag;
unsigned char name[64];
sc_test_check_pattern_call_back check_pattern;
sc_test_get_cipher_info_call_back get_cipher_info;
sc_test_generate_key_call_back generate_key;
sc_test_decode_profile_call_back decode_profile;
sc_test_get_tlv_info_call_back get_tlv_info;
};
struct rtk_test_sc {
/* API exposed to user */
unsigned char ssid[32];
unsigned char password[65];
unsigned int ip_addr;
};
enum sc_result {
SC_ERROR = -1, /* default error code*/
SC_NO_CONTROLLER_FOUND = 1, /* cannot get sta(controller) in the air which starts a simple config session */
SC_CONTROLLER_INFO_PARSE_FAIL, /* cannot parse the sta's info */
SC_TARGET_CHANNEL_SCAN_FAIL, /* cannot scan the target channel */
SC_JOIN_BSS_FAIL, /* fail to connect to target ap */
SC_DHCP_FAIL, /* fail to get ip address from target ap */
/* fail to create udp socket to send info to controller. note that client isolation
must be turned off in ap. we cannot know if ap has configured this */
SC_UDP_SOCKET_CREATE_FAIL,
SC_SUCCESS, /* default success code */
};
#ifdef PACK_STRUCT_USE_INCLUDES
#include "arch/bpstruct.h"
#endif
PACK_STRUCT_BEGIN
struct ack_msg {
PACK_STRUCT_FIELD(u8_t flag);
PACK_STRUCT_FIELD(u16_t length);
PACK_STRUCT_FIELD(u8_t smac[6]);
PACK_STRUCT_FIELD(u8_t status);
PACK_STRUCT_FIELD(u16_t device_type);
PACK_STRUCT_FIELD(u32_t device_ip);
PACK_STRUCT_FIELD(u8_t device_name[64]);
};PACK_STRUCT_STRUCT;
PACK_STRUCT_END
#ifdef PACK_STRUCT_USE_INCLUDES
#include "arch/epstruct.h"
#endif
#define MULCAST_PORT (8864)
#define SCAN_BUFFER_LENGTH (1024)
#ifndef WLAN0_NAME
#define WLAN0_NAME "wlan0"
#endif
int simple_config_result;
static struct ack_msg *ack_content;
struct rtk_test_sc *backup_sc_ctx;
extern struct netif xnetif[NET_IF_NUM];
void SC_set_ack_content()
{
memset(ack_content, 0, sizeof(struct ack_msg));
ack_content->flag = 0x20;
ack_content->length = htons(sizeof(struct ack_msg)-3);
memcpy(ack_content->smac, xnetif[0].hwaddr, 6);
ack_content->status = 0;
ack_content->device_type = 0;
ack_content->device_ip = xnetif[0].ip_addr.addr;
memset(ack_content->device_name, 0, 64);
}
int SC_send_simple_config_ack()
{
#if CONFIG_LWIP_LAYER
int ack_transmit_round, ack_num_each_sec;
int ack_socket;
//int sended_data = 0;
struct sockaddr_in to_addr;
SC_set_ack_content();
ack_socket = socket(PF_INET, SOCK_DGRAM, IP_PROTO_UDP);
if (ack_socket == -1) {
return -1;
}
FD_ZERO(&to_addr);
to_addr.sin_family = AF_INET;
to_addr.sin_port = htons(8864);
to_addr.sin_addr.s_addr = (backup_sc_ctx->ip_addr);
for (ack_transmit_round = 0;ack_transmit_round < 10; ack_transmit_round++) {
for (ack_num_each_sec = 0;ack_num_each_sec < 10; ack_num_each_sec++) {
//sended_data =
sendto(ack_socket, (unsigned char *)ack_content, sizeof(struct ack_msg), 0, (struct sockaddr *) &to_addr, sizeof(struct sockaddr));
//printf("\r\nAlready send %d bytes data\n", sended_data);
vTaskDelay(100); /* delay 100 ms */
}
}
close(ack_socket);
#endif
#if CONFIG_INIC_CMD_RSP
extern unsigned int inic_sc_ip_addr;
inic_sc_ip_addr = backup_sc_ctx->ip_addr;
inic_c2h_wifi_info("ATWQ", RTW_SUCCESS);
#endif
return 0;
}
static enum sc_result SC_check_and_show_connection_info(void)
{
rtw_wifi_setting_t setting;
int ret = -1;
#if CONFIG_LWIP_LAYER
/* If not rise priority, LwIP DHCP may timeout */
vTaskPrioritySet(NULL, tskIDLE_PRIORITY + 3);
/* Start DHCP Client */
ret = LwIP_DHCP(0, DHCP_START);
vTaskPrioritySet(NULL, tskIDLE_PRIORITY + 1);
#endif
wifi_get_setting(WLAN0_NAME, &setting);
wifi_show_setting(WLAN0_NAME, &setting);
#if CONFIG_LWIP_LAYER
if (ret != DHCP_ADDRESS_ASSIGNED)
return SC_DHCP_FAIL;
else
#endif
return SC_SUCCESS;
}
static void check_and_set_security_in_connection(rtw_security_t security_mode, rtw_network_info_t *wifi)
{
if (security_mode == RTW_SECURITY_WPA2_AES_PSK) {
printf("\r\nwifi->security_type = RTW_SECURITY_WPA2_AES_PSK\n");
wifi->security_type = RTW_SECURITY_WPA2_AES_PSK;
} else if (security_mode == RTW_SECURITY_WEP_PSK) {
printf("\r\nwifi->security_type = RTW_SECURITY_WEP_PSK\n");
wifi->security_type = RTW_SECURITY_WEP_PSK;
wifi->key_id = 0;
} else if (security_mode == RTW_SECURITY_WPA_AES_PSK) {
printf("\r\nwifi->security_type = RTW_SECURITY_WPA_AES_PSK\n");
wifi->security_type = RTW_SECURITY_WPA_AES_PSK;
} else {
printf("\r\nwifi->security_type = RTW_SECURITY_OPEN\n");
wifi->security_type = RTW_SECURITY_OPEN;
}
}
static int get_connection_info_from_profile(rtw_security_t security_mode, rtw_network_info_t *wifi)
{
printf("\r\n======= Connection Information =======\n");
check_and_set_security_in_connection(security_mode, wifi);
wifi->password = backup_sc_ctx->password;
wifi->password_len = (int)strlen((char const *)backup_sc_ctx->password);
if ( g_ssid_len > 0 && g_ssid_len < 33){
wifi->ssid.len = g_ssid_len;
rtw_memcpy(wifi->ssid.val, g_ssid, wifi->ssid.len);
}else if(strlen(backup_sc_ctx->ssid) > 0 && strlen(backup_sc_ctx->ssid) < 33){
wifi->ssid.len = strlen(backup_sc_ctx->ssid);
rtw_memcpy(wifi->ssid.val, backup_sc_ctx->ssid, wifi->ssid.len);
}else{
printf("\r\n SSID is NULL or SSID length is over 32!!");
return -1;
}
if(wifi->security_type == RTW_SECURITY_WEP_PSK)
{
if(wifi->password_len == 10)
{
u32 p[5];
u8 pwd[6], i = 0;
sscanf((const char*)backup_sc_ctx->password, "%02x%02x%02x%02x%02x", &p[0], &p[1], &p[2], &p[3], &p[4]);
for(i=0; i< 5; i++)
pwd[i] = (u8)p[i];
pwd[5] = '\0';
memset(backup_sc_ctx->password, 0, 65);
strcpy((char*)backup_sc_ctx->password, (char*)pwd);
wifi->password_len = 5;
}else if(wifi->password_len == 26){
u32 p[13];
u8 pwd[14], i = 0;
sscanf((const char*)backup_sc_ctx->password, "%02x%02x%02x%02x%02x%02x%02x"\
"%02x%02x%02x%02x%02x%02x", &p[0], &p[1], &p[2], &p[3], &p[4],\
&p[5], &p[6], &p[7], &p[8], &p[9], &p[10], &p[11], &p[12]);
for(i=0; i< 13; i++)
pwd[i] = (u8)p[i];
pwd[13] = '\0';
memset(backup_sc_ctx->password, 0, 64);
strcpy((char*)backup_sc_ctx->password, (char*)pwd);
wifi->password_len = 13;
}
}
printf("\r\nwifi.password = %s\n", wifi->password);
printf("\r\nwifi.password_len = %d\n", wifi->password_len);
printf("\r\nwifi.ssid = %s\n", wifi->ssid.val);
printf("\r\nwifi.ssid_len = %d\n", wifi->ssid.len);
printf("\r\nwifi.channel = %d\n", fixed_channel_num);
printf("\r\n===== start to connect target AP =====\n");
return 0;
}
enum sc_result SC_connect_to_AP(void)
{
enum sc_result ret = SC_ERROR;
u8 scan_channel;
u8 pscan_config;
int max_retry = 10, retry = 0;
rtw_security_t security_mode;
rtw_network_info_t wifi = {0};
if(!(fixed_channel_num == 0)){
scan_channel = fixed_channel_num;
}
pscan_config = PSCAN_ENABLE | PSCAN_SIMPLE_CONFIG;
switch(g_security_mode){
case RTW_ENCRYPTION_OPEN:
security_mode = RTW_SECURITY_OPEN;
break;
case RTW_ENCRYPTION_WEP40:
case RTW_ENCRYPTION_WEP104:
security_mode = RTW_SECURITY_WEP_PSK;
break;
case RTW_ENCRYPTION_WPA_TKIP:
case RTW_ENCRYPTION_WPA_AES:
case RTW_ENCRYPTION_WPA2_TKIP:
case RTW_ENCRYPTION_WPA2_AES:
case RTW_ENCRYPTION_WPA2_MIXED:
security_mode = RTW_SECURITY_WPA2_AES_PSK;
break;
case RTW_ENCRYPTION_UNKNOWN:
case RTW_ENCRYPTION_UNDEF:
default:
printf("\r\n unknow security mode,connect fail!");
return ret;
}
g_security_mode = 0xff;//clear it
if (-1 == get_connection_info_from_profile(security_mode, &wifi)) {
ret = SC_CONTROLLER_INFO_PARSE_FAIL;
return ret;
}
while (1) {
if(wifi_set_pscan_chan(&scan_channel, &pscan_config, 1) < 0){
printf("\n\rERROR: wifi set partial scan channel fail");
ret = SC_TARGET_CHANNEL_SCAN_FAIL;
return ret;
}
#if 0
ret = wifi_connect((char*)wifi.ssid.val,
wifi.security_type,
(char*)wifi.password,
wifi.ssid.len,
wifi.password_len,
wifi.key_id,
NULL);
#else
ret = wifi_connect_bssid(g_bssid,
(char*)wifi.ssid.val,
wifi.security_type,
(char*)wifi.password,
6,
wifi.ssid.len,
wifi.password_len,
wifi.key_id,
NULL);
#endif
if (ret == RTW_SUCCESS) {
ret = SC_check_and_show_connection_info();
break;
}
if (retry == max_retry) {
ret = SC_JOIN_BSS_FAIL;
break;
}
retry ++;
if(retry > 3){
vTaskDelay(5000);
}
}
return ret;
}
/* Make callback one by one to wlan rx when promiscuous mode */
void simple_config_callback(unsigned char *buf, unsigned int len, void* userdata)
{
unsigned char * da = buf;
unsigned char * sa = buf + ETH_ALEN;
taskENTER_CRITICAL();
if (is_promisc_callback_unlock == 1) {
simple_config_result = rtk_start_parse_packet(da, sa, len, userdata, (void *)backup_sc_ctx);
//printf("\r\nresult in callback function = %d\n",simple_config_result);
}
taskEXIT_CRITICAL();
}
static unsigned int simple_config_cmd_start_time;
static unsigned int simple_config_cmd_current_time;
extern int simple_config_status;
extern void rtk_restart_simple_config(void);
extern void rtk_sc_deinit(void);
void init_simple_config_lib_config(struct simple_config_lib_config* config)
{
config->free = rtw_mfree;
config->malloc = rtw_malloc;
config->memcmp = (simple_config_memcmp_fn)_memcmp;
config->memcpy = _memcpy;
config->memset = _memset;
config->printf = printf;
config->strcpy = strcpy;
config->strlen = strlen;
config->zmalloc = rtw_zmalloc;
config->_ntohl = lwip_ntohl;
config->is_promisc_callback_unlock = &is_promisc_callback_unlock;
}
int init_test_data(char *custom_pin_code)
{
#if (CONFIG_INCLUDE_SIMPLE_CONFIG)
is_promisc_callback_unlock = 1;
is_fixed_channel = 0;
fixed_channel_num = 0;
simple_config_result = 0;
rtw_memset(g_ssid, 0, 32);
g_ssid_len = 0;
simple_config_cmd_start_time = xTaskGetTickCount();
if (ack_content != NULL) {
vPortFree(ack_content);
ack_content = NULL;
}
ack_content = pvPortMalloc(sizeof(struct ack_msg));
if (!ack_content) {
printf("\n\rrtk_sc_init fail by allocate ack\n");
}
memset(ack_content, 0, sizeof(struct ack_msg));
backup_sc_ctx = pvPortMalloc(sizeof(struct rtk_test_sc));
if (!backup_sc_ctx) {
printf("\n\r[Mem]malloc SC context fail\n");
} else {
memset(backup_sc_ctx, 0, sizeof(struct rtk_test_sc));
struct simple_config_lib_config lib_config;
init_simple_config_lib_config(&lib_config);
//custom_pin_code can be null
if (rtk_sc_init(custom_pin_code, &lib_config) < 0) {
printf("\n\rRtk_sc_init fail\n");
} else {
return 0;
}
}
#else
printf("\n\rPlatform no include simple config now\n");
#endif
return -1;
}
void deinit_test_data(){
#if (CONFIG_INCLUDE_SIMPLE_CONFIG)
rtk_sc_deinit();
if (backup_sc_ctx != NULL) {
vPortFree(backup_sc_ctx);
backup_sc_ctx = NULL;
}
if (ack_content != NULL) {
vPortFree(ack_content);
ack_content = NULL;
}
#endif
}
enum sc_result simple_config_test(void)
{
int channel = 1;
enum sc_result ret = SC_SUCCESS;
unsigned int start_time;
int is_need_connect_to_AP = 0;
int fix_channel = 0;
int delta_time = 0;
wifi_set_promisc(RTW_PROMISC_ENABLE, simple_config_callback, 1);
start_time = xTaskGetTickCount();
printf("\n\r");
wifi_set_channel(channel);
while (1) {
vTaskDelay(50); //delay 0.5s to release CPU usage
simple_config_cmd_current_time = xTaskGetTickCount();
if (simple_config_cmd_current_time - simple_config_cmd_start_time < ((120 + delta_time)*configTICK_RATE_HZ)) {
unsigned int current_time = xTaskGetTickCount();
if (((current_time - start_time)*1000 /configTICK_RATE_HZ < 100)
|| (is_fixed_channel == 1)) {
if((is_fixed_channel == 0)&&(!((fix_channel = promisc_get_fixed_channel(g_bssid,g_ssid,&g_ssid_len))== 0))){
//printf("\r\n in simple_config_test fix channel = %d ",fix_channel);
is_fixed_channel = 1;
fixed_channel_num = fix_channel;
wifi_set_channel(fix_channel);
}
if (simple_config_result == 1) {
is_need_connect_to_AP = 1;
is_fixed_channel = 0;
break;
}
if (simple_config_result == -1) {
printf("\r\nsimple_config_test restart for result = -1");
delta_time = 60;
wifi_set_channel(1);
is_need_connect_to_AP = 0;
is_fixed_channel = 0;
fixed_channel_num = 0;
memset(g_ssid, 0, 32);
g_ssid_len = 0;
simple_config_result = 0;
g_security_mode = 0xff;
rtk_restart_simple_config();
}
} else {
channel++;
if ((1 <= channel) && (channel <= 13)) {
if (wifi_set_channel(channel) == 0) {
start_time = xTaskGetTickCount();
printf("\n\rSwitch to channel(%d)\n", channel);
}
} else {
channel = 1;
if (wifi_set_channel(channel) == 0) {
start_time = xTaskGetTickCount();
printf("\n\rSwitch to channel(%d)\n", channel);
}
}
}
} else {
ret = SC_NO_CONTROLLER_FOUND;
break;
}
}
wifi_set_promisc(RTW_PROMISC_DISABLE, NULL, 0);
if (is_need_connect_to_AP == 1) {
enum sc_result tmp_res = SC_connect_to_AP();
if (SC_SUCCESS == tmp_res) {
if(-1 == SC_send_simple_config_ack())
ret = SC_UDP_SOCKET_CREATE_FAIL;
} else {
return tmp_res;
}
} else {
ret = SC_NO_CONTROLLER_FOUND;
}
deinit_test_data();
return ret;
}
//Filter packet da[] = {0x01, 0x00, 0x5e}
#define MASK_SIZE 3
void filter_add_enable(){
u8 mask[MASK_SIZE]={0xFF,0xFF,0xFF};
u8 pattern[MASK_SIZE]={0x01,0x00,0x5e};
rtw_packet_filter_pattern_t packet_filter;
rtw_packet_filter_rule_e rule;
packet_filter.offset = 0;
packet_filter.mask_size = 3;
packet_filter.mask = mask;
packet_filter.pattern = pattern;
rule = RTW_POSITIVE_MATCHING;
wifi_init_packet_filter();
wifi_add_packet_filter(1, &packet_filter,rule);
wifi_enable_packet_filter(1);
}
void remove_filter(){
wifi_disable_packet_filter(1);
wifi_remove_packet_filter(1);
}
static void print_simple_config_result(enum sc_result sc_code)
{
printf("\r\n");
switch (sc_code) {
case SC_NO_CONTROLLER_FOUND:
printf("Simple Config timeout!! Can't get Ap profile. Please try again\n");
break;
case SC_CONTROLLER_INFO_PARSE_FAIL:
printf("Simple Config fail, cannot parse target ap info from controller\n");
break;
case SC_TARGET_CHANNEL_SCAN_FAIL:
printf("Simple Config cannot scan the target channel\n");
break;
case SC_JOIN_BSS_FAIL:
printf("Simple Config Join bss failed\n");
break;
case SC_DHCP_FAIL:
printf("Simple Config fail, cannot get dhcp ip address\n");
break;
case SC_UDP_SOCKET_CREATE_FAIL:
printf("Simple Config Ack socket create fail!!!\n");
break;
case SC_SUCCESS:
printf("Simple Config success\n");
break;
case SC_ERROR:
default:
printf("unknown error when simple config!\n");
}
}
#endif //CONFIG_INCLUDE_SIMPLE_CONFIG
void cmd_simple_config(int argc, char **argv){
#if CONFIG_INCLUDE_SIMPLE_CONFIG
char *custom_pin_code = NULL;
enum sc_result ret = SC_ERROR;
if(argc > 2){
printf("\n\rInput Error!");
}
if(argc == 2)
custom_pin_code = (argv[1]);
wifi_enter_promisc_mode();
if(init_test_data(custom_pin_code) == 0){
filter_add_enable();
ret = simple_config_test();
print_simple_config_result(ret);
remove_filter();
}
#if CONFIG_INIC_CMD_RSP
if(ret != SC_SUCCESS)
inic_c2h_wifi_info("ATWQ", RTW_ERROR);
#endif
#endif
}
#endif //#if CONFIG_WLAN